Method of and apparatus for stenciling



Jan. 3, 1939. T. H. SLOAN 2,142,158

METHOD OF AND APPARATUS FOR STENCILING Filed Jan. 7, 1937 13 Sheets-Sheet l INVEN TOR. THSZoan,

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Jan." 3, 1939- T. H. SLOAN 2,142,158

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METHOD OF AND APPARATUS FOR STENCILING Filed Jan. 7, 1937 13 Sheets-Sheet 5 h INVENTOR. ,1) $55100,

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Jan. 3, 1939.

T. H. SLOAN METHOD OF AND APPARATUS FOR STENCILING Filed Jan. '7, 1957 13 Sheets-Sheet 4 Jan. 3, 193 T. H. SLOAN 2,142,158

METHOD OF AND APPARATUS FOR STENCILING Filed Jan. '7, 1937 13 Sheets-Sheet 5 i w W W .6

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Jan. 3, 1939. SLOAN 2,142,158

METHOD OF AND APPARATUS FOR STENCILING Filed Jan. 7, 1957 15 Sheets-Sheet 6 flax llglllllli E WW INVENTOR. THSloan A TTO YS.

Jan. 3, 1939. T. H. SLOAN 2,142,158

METHOD OF AND APPARATUS F OR STENCILING Filed Jan. 7, 1957 15 Sheets-Sheet 7 rag /I A J]. 6 6

INVENTOR. Sloan,

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Jan. 3, 1939. T. H. SLOAN I 2,142,158

METHOD OF AND APPARATUS FOR STENCILING Filed Jan. 7, 1937 15 Sheets-Sheet 8 IN VEN TOR. TH filoan,

Jan. 3, 1939. T. H SLOAN METHOD OF AND APPARATUS FOR STENCTLTNG Filed Jan. 7, 1937 13 Sheets-Sheet 9 R S 0 9 T n N a r T [Z T 6 A T 4 N m M w 2 a am 1% 1 2 "w IFIIHM NH... 1 4 E kwm/ I 2 w a w m 5 2 mu L Jan. 3, 1939. T. H. SLOAN I METHOD OF AND APPARATUS FOR STENCILING Filed Jan. 7,1937 13 Sheets-Sheet l0 INVENTOR. TH 510a n,

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Jan. 3, 1939. SLQAN 2,142,158

METHOD OF AND APPARATUS FOR STENCILING Filed Jan. 7, 1937 13 Sheets-Sheet 11 g &

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Jan. 3, 1939. T. H. SLOAN METHOD OF AND APPARATUS FOR STENCILING Filed Jan. 7, 1957 13 Sheets-Sheet l3 .50 Emma QQN.

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' AT RNEYJ Patented Jan. 3, 1939 UNITED STATES PATENT OFFICE METHOD OF AND APPARATUS FOR STENCIIJNG of Delaware Application January 7, 1937, Serial No. 119,487

18 Claims.

The stenciling apparatus comprising the present invention is primarily adapted for use in applying a vitreous enamel composition or paint to articles of glassware such as bottles, jars and 5 the like in the lettering or decorating thereof by a stenciling process. The apparatus is especially designed for use in the lettering or decorating of the cylindrical sides of milk bottles.

The principal object of the invention is to provide a fully automatic machine which will receive the undecorated milk bottles in an upright position; convey the same in an upright position successively to a decorating or lettering station; orient the individual bottles about a vertical axis 15 for proper cooperation with the decorating or lettering instrumentalities; apply the decoration or lettering to the bottles; and convey the decorated bottles from the decorating or lettering station and deliver the same from the machine in an 20 upright position.

Another object of the invention is to provide a method of and an apparatus for stenciling, wherein a vertically disposed stencil screen which is capable of movement in its own vertical plane is 25 moved horizontally while in rolling contact with the surface of an article to be decorated while at the same time decorating material is applied to the surface of the article through the screen by the spreading action of a squeegee which is 0 maintained in contact with the screen along the vertical line of contact between the screen and surface undergoing decoration.

A still further object of the invention is to provide a novel form of dispensing mechanism 35 for supplying the vertically disposed stencil screen with decorating material for application therethrough to the article by the spreading action of the squeegee.

Other objects and advantages of the invention,

. not at this time more particularly enumerated, will become more readily apparent as the nature of the invention is better understood.

In the accompanying drawings:

Fig. 1 is a front elevational view of an assemir, bled bottle decorating machine manufactured in accordance with the principles of the present invention;

Fig. 2 is a rear elevational view of the machine shown in Fig. 1;

30 Fig. 3 is a vertical sectional view taken transversely through the machine centrally of a main cam shaft employed for controlling the operation of the various bottle moving and decorating instrumentalities employed in connection with the is present invention;

Fig. 4 is a sectional view taken substantially along the line 4-4 of Fig. 3;

Fig. 5 is a sectional view taken substantially along the line 5-5 of Fig. 1; a

Fig. 6 is a sectional view taken substantially 5 along the line 66 of Fig. 3;

Fig. 7 is a sectional view taken substantially along the line 7--1 of Fig. 3; I

Fig. 8 is a sectional view taken substantially along the line 8-8 of Fig. 3;

Fig. 9 is. a sectional view taken substantially along the line 9-9 of Fig. 3;

Fig. 10 is an enlarged fragmentary perspective view of a crank arm and connections therefor shown in the preceding figure;

Fig. 11 is a sectional view taken substantially along the line ll-ll of Fig. 3;

Fig. 12 is a sectional view taken substantially along the line l2-l2 of Fig. 3;

Fig. 13 is an enlarged perspective view of a looking pawl which forms an element of a clutch mechanism employed in connection with the present invention;

Fig. 14 is a sectional view taken substantially along the line I l-l4 of Fig. 3;

Fig. 15 is a sectional view taken substantially along the line I 5l5 of Fig. 14;

Fig. 16 is a sectional view taken substantially along the line Iii-16 of Fig. 1;

Fig. 17 is a sectional view taken substantially along the line l'l|l of Fig. 16;

Fig. 18 is a sectional view taken substantially along the line l8-|8 of Fig. 17;

Fig. 19 is a sectional view taken substantially along the line I9l9 of Fig. 16; and

Fig. 20 is a diagrammatic view, graphic in its representation, illustrating the manner in which the various operative machine elements are controlled by the angular position of a series of controlling cams mounted upon a common main opcrating shaft.

BRIEF DESCRIPTION or MACHINE Referring now to Figs. land 5, the apparatus briefly comprises a rectilinear casing l0 in'which is housed a major portion of the operative mechanical driving connections or instrumentalities of the apparatus. The casing 10 includes a table portion II, on or above which the various bottle supporting and decorating instrumentalities are supported. The bottle supporting assembly is designated in its entirety at 12 and consists of a rotary chuck supporting turret I 3 in the form of a'spider mounted on a vertical turret shaft l4 above-the table II. Supporting chucks l5 are rotatably carried by the turret i3 and each chuck is adapted to support thereon in an upright position a milk bottle B to be decorated. The bottles B are centered upon the chucks l5 and are maintained thereon in such centered relation by means of a plurality of centering chucks l6 suitably supported in axial alignment with the bottle openings. As will be described in detail later, means is provided for periodically indexing the turret shaft l4 and turret l3 to bring the bottles B supported thereby into decorating position in contact with a stencil screen S which forms an element of a stencil screen assembly H.

The stencil screen assembly I! is supported above the table II in the vicinity of the bottle supporting assembly 12 and includes the vertically disposed horizontally reciprocable stencil screen S which is periodically movable toward and away from the bottle supporting assembly 12 and which is designed to make tangential rolling line contact with the cylindrical sides of successive bottles B successively presented to it upon each successive indexing operation of the turret I3.

In order to establish such tangential rolling line contact between the stencil screen S and the bottles B undergoing decoration, means is provided for rotating each chuck l5 during the actual decorating operation, and toward this end a chuck rotating assembly I8 is supported above the table I l in the vicinity of the bottle supporting assembly l2. The chuck rotating assembly l8 includes a reciprocable carriage l9 which carries a friction element 20 designed to engage the chucks l5 during the decorating operation and, by rolling line contact therewith, impart rotary motion to the same. The carriage I9 is periodically movable toward and away from the bottle supporting assembly l2 in synchronism with the movements of the stencil screen S in a manner subsequently to be described.

A squeegee assembly 2| is supported above the table II in the vicinity of the stencil screen assembly I1 and includes a squeegee S (Fig. 16) which is carried by the outer end of a squeegee arm 22 which is mounted upon avertical shaft 23 for horizontal swinging movement toward and away from the bottle supporting assembly l2. The squeegee S is designed to contact the stencil screen S along the rolling line of contact between the screen and bottle undergoing decoration and is held stationary during reciprocation of the screen in order that decorating material may be forced through the interstices ,of the screen by the spreading action of the squeegee.

The shaft 23 is adapted to be periodically actuated in timed relation to the actuation of the stencil screen assembly I! in such a manner that the squeegee S will clear the screen upon completion of each decorating operation.

A dispensing mechanism 25 for the decorating material to be applied to the bottles B is positioned in the vicinity of the stencil screen assembly l1 behind the screen S. The dispensing mechanism 25 is adapted to supply decorating material to the screen continuously during the operation of the apparatus in a manner that will be fully described hereinafter.

Upon completion of each decorating operation, the decorated bottles B are removed from the machine in an upright position by means of a bottle ejecting mechanism 26 which is supported above the table II.

GEAR CASING Referring now to Figs. 1 and 3, the gear casing i0 is generally of rectilinear form and is provided with a front wall 3i, a rear wall 32, side walls 33 and 34, a bottom 35, and a top or cover 5 -.removable cover plates 39 and 40 respectively (Figs. 1, 2 and 3) for the purpose of inspection,

adjustment, repair or replacement of parts contained within the casing l0.

BOTTLE SUPPORTING ASSEMBLY Referring to Figs. 1, 5, l5 and 16, the bottle supporting assembly I2 is supported above the 25 table I l upon the previously mentioned vertically extending turret shaft I4. The lower end of the turret shaft i4 is rotatably mounted in a bearing 4| (Fig. 15) secured interiorally of the casing [0 upon the bottom 35 thereof. extends vertically through the casing l0 and projects upwardly thereabove a considerable distance, it being supported medially of its ends in a bearing 42 carried by the cover 36. The chuck supporting turret I3 is in the form of a spider having a central hub portion 43 from which there extends radially a plurality of arms 44, the outer ends of which have formed thereon a corresponding number of vertically extending sleeves 45. In the present instance, four such arms 44 and sleeves 45 have been disclosed, but it is to'be distinctly understood that a greater or a lesser number may be employed if desired. Each arm 44 carries at its outer end one of the bottle supporting chucks IS in the form of a cup-shaped member which is secured centrally to a face plate 41 formed on a shank 48 that extends vertically through a respective sleeve 45 in which it is rotatably supported by means of roller bearings 49. The chuck I5 is secured to the face plate 41 by means of studs 50. The lower end of each shank 48 projects completely through its respective sleeve 45 and the projecting end thereof has mounted thereon an eccentric crank 5| (Fig. 17) 5 provided with an eccentrically positioned roller 52 on its underneath side.

A plurality of brake rods 53 (Fig. 18). one for each chuck l5, are secured at their inner ends to the chuck supporting turret I3 and extend 6 As will be subsequently described, the shaft l4 7 upon which the bottle supporting assembly I2 is mounted is adapted to be periodically indexed in such a manner that the chucks I5 are moved from a receiving station a to an intermediate position b, from the intermediate position b to 7 The turret shaft I4 30 a decorating station 0, and from the decorating station .0 to a discharging station d.

Extending centrally around the shaft I4, spaced therefrom, and secured to the table II, is a substantially circular rack 56 having formed thereon an arcuate groove 51 in which the four rollers 52 are adapted to ride upon turning movement of th shaft I 4 during indexing of the same.

The groove 51 is discontinued in the vicinity of the decorating station and thus, at this station, the chucks I are capable of independent rotation about their respective axes during the actual decorating operation as will be described hereinafter. Upon movement of the chucks I5 from the decorating station 0 to the discharging station d, the rollers 52 enter a straightaway portion 58 of the groove 51 which serves as a guide for introducing the rollers 52 into the arcuate portion of the groove 51.

In the decoration of the bottles B, it is essential that the decoration be applied to the bottles on either side of the mold seam, ordinarily occurring on the exterior surface thereof. Each chuck I5 is provided with a score mark 28 or other indicia with which the bottle seams are adapted to be aligned in placing the bottles on the chucks l5 in an upright position at the receving station a. In order that the mark 28 shall be presented outwardly for the convenience of the operator who feeds the machine, pins 28 formed on the face plates 41 register with sockets 30 provided in the base of the chucks I5 and these pins 29 and sockets '30 are so formed that when the rollers 52 occupy a position within the groove 51 at the receiving station a, the marks 28 are presented forwardly toward the operator.

In the operation of the machine the bottles B are successively and individually placed upon respective chucks I5 arriving at the receiving station in the manner just described. Immediately thereafter, the shaft I 4 is indexed and the chuck at the receiving station a, together-with the bottle B thereon, is moved from the station a to the position b.

In order to maintain the bottles B on their respective chucks I5 during indexing of the chuck supporting turret l3, the centering chucks I6, previously referred to, are brought into operation. The centering chucks I6 correspond in number to the number of chucks I5. The chucks are suspended by means of plungers 63 above the level of the bottle openings in axial alignment therewith. Toward this end, the upper end of the vertical turret shaft I4 has mounted thereon a supporting spider 59 possessing radially extending arms 68 which correspond in number to the number of plungers 63. The outer ends of the arms 66 are provided with vertically extending guides 6I through which the plungers 63 extend and in which they are vertically slidable. The lower ends of the plungers 63 have mounted thereon ball bearings 62 from which the centering chucks I6 are rotatably suspended. The chucks l6 are adapted, upon lowering of the plungers 63, to engage the surrounding walls of the bottle openings and maintain the bottles B in position upon their respective chucks I5.

In order to elevate or lower the centering chucks I6 into or out of engagement with the bottles B, each plunger 63 has secured thereto adjacent its upper end a collar 64 having an annular groove 65 formed therein. The chuck supporting turret I 3 and spider 59 are provided with a series of vertically aligned guides 66 and 61 respectively in the radial portions 44 and 68 thereof, and a vertically extending thrust rod 68 is vertically slidable in each pair of guides. Each thrust rod 68 has secured thereto adjacent its upper end a sleeve 69 from which there extends radially a bifurcated arm 18, the bifurcations of which straddle one of the collars 64 and are received within the groove 65 thereof. The centering chucks I6 are normally held in their bottle engaging position by means of coil springs II which surround the thrust rods 68 and which bear at their upper ends against the spider 59 and at their lower ends against thrust collars 12 that are mounted on the thrust rods 68.

In order to accommodate various sizes of bottles, for example, pint or quart size milk bottles or half-pint cream bottles, the grooved collars 64 are slidably adjustable on their respective plungers 63 by means of set screws 13.

Referring now to Figs. 16 and 19, wherein the means for periodically elevating and lowering the centering chucks I6 is disclosed, the lower ends of the thrust rods 68 project through the guides 66 provided in the radial portions 44 of the chuck supporting turret I3 and are adapted to be elevated periodically upon arrival of the respective bottle chucks, with which the thrust rods 68 are associated, at the discharging station (1 or at the receiving station a. Toward this end, a vertically slidable plunger I4 projects through a guide 15 extending through the cover 36 of the casing I8 at a point in the vicinity of both the discharging station at and the receiving station a. A curved lifting plate or cross-head I6 is provided on the upper end of the plunger I4 and underlies the ends of adjacent thrust rods 68 when the associated chucks I5 are in bottle discharging and bottle receiving positions at the stations 0 and a.

It will be seen that upward movement of the plunger 74 will cause the curved cross-head 16 to engage the lower ends of the thrust rods 68 and elevate the same, thus causing the bifurcated arms I8 carried by the upper ends of the thrust rods 68 to elevate the plungers 63 and centering chucks I6 carried thereby. The mechanism for periodically actuating the plungers I4 is contained within the gear casing I0 and will be described subsequently.

CHUCK ROTATING AND STENCIL SCREEN ASSEMBLIES The stencil screen and, chuck rotating assemblies I1 and I8 (Figs. 2, 3, 5 and 16) are rigidly secured to each other and move in unison, whether the movement thereof be toward and away from the bottle supporting assembly I2, or whether the movement be reciprocal for the purpose of decorating the bottles B. As has been previously set forth, when the bottles B carried by the supporting chucks I5 are, upon indexing of the chuck supporting turret I3, brought into decorating position at the decorating station 0, the entire stencil screen assembly I! and chuck rotating assembly I8 are adapted to be moved toward the bottle supporting assembly I2 in such a manner that the screen S contacts the particular bottle about to be decorated along a vertical line of contact prior to reciprocating movement of the stencil screen while at the same time the friction element 28 engages the particular chuck which supports the bottle about to be decorated.

The chuck rotating assembly I8 consists of the previously mentioned reciprocable carriage I!) which is mounted upon tracks BI for longitudinal reciprocation therealong. The tracks 8| extend longitudinally of the machine from one end thereof to the other, and each track is provided with a coextensive groove 82 on the inner side thereof, in which grooves a plurality of pairs of rollers 83, carried by the carriage I9, are adapted to ride and form a rolling support for the carriage. The axes of the rollers 83 extend in a vertical plane to take care of any side thrust existing by virtue of the contact between the friction element 28 and chuck I5. The inner rollers 83 of each pair, 1. e., the rollersnearest the bottle supporting assembly I2, are mounted upon the outer ends of corresponding links 84 which are pivoted medially of their ends. The

other ends of the links 84 are yieldingly drawn outwardly by the action of coil springs 85 to normally urge the rollers 83 into the groove 82 provided on the inner track 8|. The friction element 28 is in the form of an elongated strip of rubber which is mounted upon an angle piece backing 86 which is secured to the upper surface of the carriage I9 by means of brackets 81.

The stencil screen assembly comprises a vertically disposed rectangular screen frame 88 to which the stencil screen S is secured on one side thereof in any suitable manner, as, for example, by glueing. The screen frame 88 is supported above the carriage I9 by means of angle brackets 89. The screen S is positioned substantially in the plane of the friction element 28, the former making tangential rolling line contact with the bottle B and the latter making tangential rolling linecontact with the chuck I5 when the chuck rotating and stencil screen assemblies are moved toward the bottle supporting assembly to an operative decorating position.

The tracks 8I are secured in parallel relationship to a pair of transversely reciprocable supporting blocks 98. The blocks 98 are slidably supported upon a pair of supports 9I which are mounted upon the table I I. The supports 9I have secured thereto, overlying portions 92 which, together with the supports 9| form grooves 93 therebetween, in which grooves the blocks 98 are slidable. The blocks 98 are provided with slots 11 (Figs. 4 and 5), into which slots there project the free ends of a pair of spaced reciprocating crank arms 18 and I9 which extend through slots 94 provided in the cover 36 of the casing I8 and which are mounted radially upon a longitudinal rock-shaft 95 contained within the casing. The shaft 95 is adapted to be oscillated periodically in a manner subsequently to be described in order to cause the stencil screen S and friction element 28 to engage the side of the bottle B undergoing decoration and the supporting chuck I5 therefor respectively.

In order to cause longitudinal reciprocation of the chuck rotating and stencil screen assemblies I8 and I1 respectively, the underneath side of the carriage I9 has suspended therefrom a transversely extending bracket 88 which is provided with a groove 96 therein. A tiltable reciprocable arm 91 is pivotally secured at its lower end in a bearing block 98 by means of trunnions 99. The upper end of the arm 91 projects through an elongated longitudinally extending slot I88 provided in the cover 38 of the casing I8. A bracket I8I, secured to the upper end of the arm 91, has a thrust block I82 pivotally mounted thereon. The thrust block I82 extends Into the groove 96 provided in the bracket 88 and serves, upon reciprocation of the arm 91, to cause horizontal reciprocation of the carriage I9. The mechanism for causing reciprocation oi the tilteble arm 9'! is contained within the casing I8 and will be described subsequently.

SQUEEGEE ASSEMBLY Referring now to Figs. 3, 5 and 16, the previously mentioned vertically extending shaft 23 is rotatably journalled in a bearing box I84 and projects upwardly above the level of the table I I adjacent the rear edge thereof. A vertically adjustable swinging support I is keyed as at I88 to the shaft 23 and is adapted to be secured above the level of the table II in any desired adjusted position by means of a set screw IN. The squeegee arm 22 is secured to the support I85 at the outer end thereof and extends longitudinally of the machine behind the screen S. The free end thereof has secured thereto a bracket I88 to which a squeegee holder I89 is in turn secured. The holder I89 is provided with a pair of parallel extending flanges II8 between which the squeegee proper S is pivoted for limited rocking movement. An inclined trough III issupported in any suitable manner from the squeegee holder I89 above the same and is so oriented that decorating material supplied to it will flow from the lower edge thereof onto the screen S in the immediate vicinity of the squeegee blade S and to one side thereof so that upon movement of the screen relative to the squeegee during the operative decorating stroke thereof, the enamel composition is forced through the pervious portions of the screen and onto the bottle B undergoing decoration at the decorating station 0.

The squeegee S is normally held in yielding contact with the stencil screen S and toward this end, an arm I25 (Figs. 3 and 16), is rigidly secured to the shaft 23 and extends inwardly and overlies the table II. A coil spring I2! is secured at one end to the arm I25 and is anchored at its other end to a rod I28 which is axially adjustable in a bearing block I29. A pin I38 extends through the block I29 and is adapted to be selectively received in any one of a number of longitudinally aligned holes I3I provided in the rod I28. The coil spring I21 normally urges the squeegee assembly, including the arm I25, the shaft 23, and the squeegee arm 22 about the axis of the shaft 23 in such a manner that the squeegee S bears against the screen S with varying degrees of pressure, depending upon the setting of the rod I28 in the bearing block I29.

An elongated set screw I32, which is adjustably mounted in the bearing block I29, projects into the path of the arm I25 to limit the swinging movement of the arm I25. Thus, by manipulation of the set screw I32, the squeegee may be properly adjusted to the screen S for eflicient decoration of the bottles B.

PAINT DISPENSING lllscnxxrsir The paint dispensing mechanism 25 for supplying enamel composition or other decorating mateiial to the stencil screen S is best illustrated in.

beyond the end of the sleeve I II and has mounted thereon a disk H9. A series of holes I29 are formed in the peripheral regions of the disk H9. A container I2I for the enamel composition or other decorating material is secured to the reciprocable carriage I9 in any suitable manner. The disk H9 extends into the container I2I and the lower edge thereof extends into a pool of enamel composition contained within the container I2I. Upon rotation of the disk I IS, the enamel composition adheres to the perforate regions thereof and is carried upwardly thereon. Adjustably and pivotally mounted upon a bracket I22 which is secured to the sleeve H are a pair of supports I23, from which supports are suspended a pair of inclined arcuate scrapers I24. The scrapers I24 positioned on opposite sides of the disk H9 and the adjacent edges thereof bear against the opposite sides of the disk H9 in the peripheral region thereof in such a manner that the enamel composition adhering to the disk is removed therefrom and transferred to the inclined arcuate scrapers I24. Each scraper I24 in effect provides an inclined trough from which the enamel composition transferred thereto is adapted to issue.

The enamel composition issuing from the scrapers I24 is deposited on the trough III from whence it flows onto the screen S in the vicinity of the squeegee S as previously described.

BOTTLE EJECTING MECHANISM Referring now to Figs. 1 and 19, a guide member I26 is secured to the table portion II of the casing. The guide member I26 is provided with an upwardly projecting sleeve portion I33 and a downwardly projecting sleeve portion I36, which latter portion extends through a slot I35 provided in the casing cover 36 and projects into the easing. A vertically extending shaft I36 extends completely through the sleeves I33'and I34 of the guide member I26 and projects upwardly therefrom a substantial distance. The shaft I36 is capable of both rotational movement and vertical sliding movement in the guide member I26. The lowermost position of the shaft I36 is limited by means of an adjustable collar I31 which is secured thereto and which is designed for engagement with the upper end of the sleeve I33. Adjustably secured as at I38 to the shaft I36 for vertical adjustment thereon near the upper extremity thereof, is a bottle take out or bottle ejecting or take out arm I39 having a bifurcated plate I49 secured thereto at its free end. The bifurcations of the plate I49 are adapted to straddle the neck portions of the bottles that have been decorated in the machine below the annular bead customarily provided thereon for the purpose of elevating the same from the supporting chucks I5. In order to prevent swinging of the bottles when they are suspended from the bifurcated plate I49, a comparatively rigid wire rod I4I extends downwardly from the plate I49 and is bent into arcuate form as at I42 to partially encircle the lower region ofthe neck portion of the bottle being removed from the machine to steady I .the same as the arm I39 is swung outwardly away from the bottle chucks I5 in the ejecting of hottles in the manner subsequently to be described.

MAIN OPERATING SHAFT AND DRIVING CONNECTIONS THEREFOR Referring now to Figs. 1, 3, and 12, a vertically extending main operating shaft I59 is rotatably journalled in the casing I9 and is supported in bearings I5I and I52 mounted on the bottom 35 and cover 36 thereof respectively. Mounted upon the shaft I 59 and freely rotatable thereon is a sleeve I53. Keyed as at I54 to the sleeve I53 for rotation therewith are an upper worm gear I55 and a lower ratchet wheel I56. The sleeve I53, worm gear I55 and ratchet wheel I56 comprise a unitary assembly which is adapted to be driven continuously by means of a worm I51 (Fig. 3) which is mounted on a horizontal shaft I58 mounted in bearings I59 carried by the side walls 33 and 34 of the gear casing I9 and which meshes with the worm gear I55. The shaft I59 is driven continuously through a variable speed belt and pulley mechanism I69 of standard design by means of an electric motor M preferably mounted exteriorly of the casing I9.

Normally, motion of the shaft I58 which in turn transmits motion to the unitary worm gear and ratchet wheel assembly I 55, I56 is not transmitted to the main operating shaft I59. However,'by operating a treadle mechanism, the operating portion of which is mounted on the casing I9 exteriorally thereof, the operator of the apparatus is enabled to establish a driving connection between the horizontal shaft I58 and the main operating shaft I59. Toward this end, a substantially horizontal treadle shaft I6I extends transversely through the casing I9 and is rotatably supported in the side walls 33 and 34 thereof. The shaft I6I projects from' the casing I9 and has secured thereto exteriorally of the casing I9 an actuating arm I62 which is connected through a link I 63 to a treadle I69 which is positioned for convenient access to the operator of the machine. Depression of the treadle I64 by the foot of the operator will impart slight rocking movement to the shaft I6I through the link I 63 and actuating arm I62.

Secured to the shaft I6I within the casing I9 and in the vicinity of the main operating shaft I59 is a suspension arm I65 (Figs. 3, 4 and 11). The outer end of the arm I65 is connected to a suspension link I66, the lower end of which link is provided with a laterally projecting pin I61 from which there is pivotally suspended a vertically and downwardly extending latch pin I68, the lower portion of which is guided in a bore I69 provided in a guide member I19 supported on the side wall 33 of the casing I9. A coil spring "I, one end of which is secured to the pin I61 and the other end of which is secured to the guide member I19, serves to normally maintain the latch pin I68 in its lowermost position with the extreme end thereof projecting completely through the bore I69 provided in the guide I19. Upon depressing the treadle I64, limited rocking movement is imparted to the shaft I6I in the manner previously described, and such rocking movement serves to elevate the suspension link I66 and latch pin I68 carried thereby and retract the projecting end of the latter.

Normally, when the latch pin I68 is in its extended position, it projects into the path of a pivoted pawl I12, one end of which is pivotally.

connected to a substantially triangular torque plate I13 (Figs. 4 and 12) through which plate the vertical main operating shaft I59 extends ad- J'acent one corner thereof and to which it is anchored by means of a set screw I14. The torque plate I13 is thus eccentrically mounted on the shaft I59 and its free outer peripheral edge projects beyond the periphery of the ratchet wheel as clearly shown in Fig. 12. The pawl I12 is pivoted to the torque plate I13 adjacent one corner thereof and is normally urged into engagement with the toothed periphery of the ratchet wheel I56 by means of a coil spring I155. The free end of the pawl I12 is provided with an upstanding dog I16 having a cam surface I11 formed thereon.

The torque plate I13, being keyed to the main operating shaft I50, is designed for rotation about the axis of the same in unison with the ratchet wheel I56 when the pawl I12 is in engagement with the periphery of the latter. The projecting end of the pin I68 when the latter is extended from the guide I10, extends into the path of the dog I16 and engages the cam surface I11 thereof in such a manner that the pawl is drawn outwardly from the periphery of the ratchet wheel I56 against the action of the spring I15, thus releasing the driving connection between the ratch et wheel I56 and torque plate I13. When the projecting end of the pin I68 is retracted into the guide member I10, the pawl I12 is released and the coil spring I15 causes the free end of the latter to be drawn into engagement with the periphery of the ratchet wheel I56 to establish driving connection between the ratchet wheel I56 and the torque plate I13 to set the main operating shaft I50 into motion;

OPERATING INSTRUMENTALITIES FOR THE S UEEGEE ASSEMBLY Referring now to Figs. 3, 4, and 6, the upper end of the main operating shaft I50 has keyed thereto as at I18 a substantially circular cam I19 which forms an element of one of the screen operating mechanisms subsequently to be described. Secured to the cam I19 (Fig. 6) by means of studs I80 and rotatable therewith, is a second cam I8 I hereinafter referred to as 'the squeegee cam. The squeegee cam I8I is provided with an outer 'arcuate cam surface I82 and an inner cam surface I45. The periphery of the squeegee cam I8I is designed for contact with a roller I83 mounted upon the free end of a curved, horizontally disposed arm I84 which is keyed as at I85 to the previously mentioned vertically extending shaft 23 upon which the squeegee assembly 2I is mounted. The coil spring I21 (Fig. 16) serves to yieldingly apply a torque to the shaft 23 through the medium of the arm I25 in such. a manner that the .arm I 84 and roller I 83 are urged into operative engagement with the cam I8I. Thus it will be seen that as the main operating shaft I50 is rotated, the arm I84 is periodically oscillated in such a manner that the squeegee arm 22 (Fig. 16) which is'mounted on the shaft 23 is periodically moved into and out of engagement with the stencil screerr S.

OPERATING INSTRUMENTALITIES FOR CAUSING RECIP- BOCATION on THE STENCIL SCREEN FRAME m) CHUCK ROTATING CARRIAGE Referring now to Fig. 3, the previously mentioned cam I19, which will hereinafter be referred to as the carriage reciprocating cam, is provided with a depending apron I86, the lower edge of which is provided with a cam surface I81 having acrest portion I43 and a trough portion I44 designed for contact with a cam roller I88 mounted upon the free end of an arm I89 which is mounted at its other end for swinging movement about the axis of a stub shaft I90. The stub shaft I90 is rotatably journaled by means of anti-friction bearings I9I (Fig. 7) in a suspension bracket I92 supported from the cover 36 of the casing I0. Secured as at I93 to the arm I89, in such a manner as to form a bell crank lever therewith, is 9. depending arm I94, the

free lower end of which is adapted to engage a cam roller I95 in the form of an antifriction member mounted on a bracket I96 (Fig. 8) which is longitudinally adjustable on the previously mentioned reciprocable arm 91 and which is adapted to be secured in any desired adjusted longitudinal position thereon by means of a set screw I91. It will be' seen that upon rotation of the main driving shaft I50, the cam roller I88, riding upon the cam surface I81 of the cam I19, causes the bell crank lever provided by the arms I89 and I94 to be reciprocated about the axis of the stub shaft I90 (Fig. '7), thus imparting reciprocal movement to the arm 91 which causes reciprocation of the chuck rotating carriage I9 (Fig. 5) through the medium of the block and slot connection 96, I02 previously referred to.

OPERATING INSTRUMEN'IALITIES r01: MovrNc 'lllE STENCIL SCREEN FRAME AND CHUCK ROTATING CARRIAGE INTO AND OUT or DECORATING POSITION Referring now to Figs. 3 and 9, a horizontal carriage shifting cam 200 is keyed as at 20I to the main operating shaft I50 directly beneath the cam I19. The cam 200 is provided with an upwardly extending flange 202, the upper edge of which provides a cam surface 203 having an elevated portion I98 and a lower portion I99 designed for contact with a cam roller 204 mounted on the free end of an arm 205 which is secured at its other end to the previously mentioned horizontal transverse rock-shaft 95 which is supported for rocking movement in bearings 201 carried by the sides 33 and 34 of the casing ID. The previously mentioned crank arm 19 is secured by means of studs 208 to the arm 205 adjacent one end of the rock-shaft 95 while the arm 18 is anchored to the rock-shaft 95 adjacent the ..285. Such rocking movement of the rock-shaft 95 imparts reciprocal motion to the chuck rotating carriage I9 and stencil screen frame 88 through the medium of the crank arms 18 and 19 in the manner previously described.

OPERATING INSTRUMENTAIITIES FOR RAISING ANl) LowEnINc THE BOTTLE EJECTING MEcHANIsM AND THE CENTERING Grrucx UNITS Referring now to Figs. 4, 11 and 19, the previously mentioned vertically slidable plunger 14, (Fig. 19), which carries at its upper end the curved lifting plate or cross-head 16 for elevating the centering chuck units is normally and yieldingly held in its lowermost position by means of a coil spring 209 which surrounds the same. The lower end of the plunger 14 is supported upon a vertically adjustable lifting pin 2 I 0 which is mounted in a boss I03 provided on the extreme outer end of a substantially horizontal hinged lifting plate 2. The other end of the lifting plate 2 is bifurcated as at 2I2 and is supported upon trunnions 2 I3 which extend outwardly from the opposite sides of a support 2I4 which is secured in any suitable manner to the side wall 33 of the casing I 0.

The projecting lower end of the vertically slid able and rotatable shaft I36 which forms a part 75 of the bottle ejecting or bottle take ofl. mechanism' 26 is supported upon a lifting pin 2I5 which is similar to the lifting pin 2I0 and which is mounted upon the lifting plate 2| I medially of the ends thereof.

In order to cause periodic reciprocation of the lifting plate 2 about the axis of the trunnions 2I3 and thus cause periodic raising and lowering of both the plunger I4 and shaft I36'which control the movements of the centering chucks I6 and the bottle ejecting mechanism 26, a cam roller 2I6 is mounted upon a pin 2I'I which is received in a boss 2I8 provided medially on the lifting plate 2I I. The roller 2I6 is designed for Contact with a cam surface 2I9 provided on a cam ring 220 removably secured as at 22I to a circular cam 222 hereinafter referred to as the centering chuck cam or lifting cam which is keyed as at 223 to the main operating shaft I50 and which is vertically adjustable thereon by means of a set screw 224. The cam surface 2I9 of the cam ring 220 is provided with elevated portions 225 and lower portions 226. The elevated portions 225 represent the elevated position of the centering chucks I 6 during movement of the bottles from the discharging station d to the receiving station a, and also represent the simultaneously elevated position of the bottle ejecting mechanism 26. The lower portions 226 represent the lowered positions of the centering chucks I6 and the bottle ejecting mechanism 26 during movement of the empty bottle supporting chucks I5 from the discharging station It to the receiving station a. Thus it will be seen that as the main operating shaft I50 is rotated, the lifting plate 2 is reciprocated about the axis of the trunnions 2 I3 and the lifting pins 2 I0 and 2I5 periodically raise and lower the vertically slidable plunger 14 and shaft I36 which respectively actuate the centering chucks I6 and bottle ejecting mechanism 26. Y

OPERATING INSTRUMENTALITIES roe PERIODICALLY SWINGING THE BOTTLE EJECTING MEoHA-NIsM TOWARD AND AWAY FROM THE BOTTLE SUPPORTING CHUCKS Referring now to Figs. 1, 3, 6, 9 and 19, a cam 230, hereafter referred to as the take out cam, is adjustably secured to the cam 200 for limited angular adjustment thereon by means of a series of stud and slot connections 23I. The periphery of the cam 230 provides an irregular cam surface 229 which is designed for contact with an antifriction cam roller 232 which is supported medially upon a horizontally slidable link 233, the inner end of which is bifurcated as at 234 and straddlesihe main operating shaft I50 immediately below the cam 230. The bifurcated end of the link 233 is supported upon a plate 235 which is adjustably secured to the shaft I50 by means of a set screw 236. The outer end of the link 233 is pivotally connected by means of a pin 231 (Fig. 10) to .the outer end of a short arm 238, the inner end of which is keyed as at 239 to the vertical'shaft I36 which controls the operation of the bottle ejecting mechanism 26.

A bracket 240 is mounted upon the short arm 238 and a coil spring 24I, one end of which is secured to the bracket 240 and the other end ofv which is anchored to the side Wall 33 of the casing I0, normally applies a torque to the shaft I36 which maintains the roller 232 in contact with the cam surface 229 provided on the periphery of the cam 23. Thus it will be seen that as the main operating shaft'I50 is rotated, the link 233 is moved longitudinally, or substantially so, toward and away from the axis of the shaft I50 and such movement thereof transmits periodic reciprocal rocking motion to the vertical shaft I 36 thus causing the bottle supporting and ejecting arm I39 to be swung toward and away from its proximate bottle supporting chuck I5 to engage a bottle thereon or to release a discharged bottle as the case may be.

OPERATING INSTRUMENTALITIES FOR HOLDING 'IIIE (Hook SUPPORTING TURRET -tially spaced from each other ninety degrees apart. Pivotally mounted. upon a short stub shaft 253 which extends upwardly from the bottom 35 of the casing I0, and maintained thereon by means of a collar 254, is a holding detent 255, one end of which is provided with a tooth 256 adapted to successively enter the notches 252 provided on the periphery of the wheel 250 to maintain the wheel in any one of a number of positions. A coil spring 218 is secured at one end to the detent 255 medially thereof and the other end of the spring is adjustably secured as at'25'l to the side wall 34 of the casing I0 in such a manner that the detent 255 is normally maintained in engagement with the wheel 250.v

The other end of the detent 255 extends outwardly from the pivotal axis thereof at an angle to the main body of the detent and is adapted to be engaged by a cam surface 258 provided on the periphery of a detent cam 259 which is mounted on the lower end of the main operating shaft I50 and is rotatable therewith through the medium of a second or turret cam 260 which is eccentrically mounted on the operating shaft I50 to which the former cam 259 is adjustably secured forangular adjustment thereon by means of stud and slot connections 26I.

OPERATING INsTnUMENTALITIEs FOR INnExINo THE TURRET Disposed upon the shaft I 4 and freely rotatable thereon, is a gear 262 provided with teeth 263 on the periphery thereof, The upper portion of the gear 262 is provided with a series of ratchet teeth 264. The teeth 264.are adapted to mesh with similar teeth 265 provided on the lower portion of a sleeve 266 which is keyed as at 261 to the shaft I4. The sleeve 266 is vertically slidable on the shaft I4 and the teeth 265 thereof are maintained in engagement with the teeth 264 provided on the gear 262 by means of a coil spring 268 which surrounds the shaft I4 and which bears at its upper end against a fixed collar 269 mounted on the shaft I4 and at its lower end against a slidable collar 210 which bears against the sleeve 266.

Thus it will be seen that upon rotation of the gear while upon rotation of the gear 262 in the opv posite direction, the teeth 264 and 265 will mesh and cause the gear 262 and sleeve 266, together with the shaft I4, to rotate in unison.

The teeth 263 which are provided on the pe- 

